Active clinical trials for "Parkinson Disease"

The aim of this study is to investigate whether a smartwatch can measure the physical capacity of patients with Parkinson's Disease and COPD in the physiotherapy practice and at home.

Deep brain stimulation (DBS) of the subthalamic nucleus or globus pallidus internus can improve motor symptoms Parkinson's disease (PD). However, it is not known whether DBS can help reduce the signs and symptoms of the limb-kinetic, ideomotor or ideational apraxia associated with PD or if apraxia can exist as a stimulation induced side effect from DBS therapy. In this study, we look to conduct a pilot study to examine the feasibility of characterizing the prevalence of apraxia in PD patients with chronic, stable DBS.

This study aims to determine whether gait training combined with motor imagery exercises has a superior effect on the biomechanics of gait, functionality in activities of daily living, motor capacity, and the perception of the quality of life in people. people with Parkinson's disease, than gait training without motor imagery. To do this, a six-week training program will be carried out, where walking exercises and motor imaging will be performed twice a week in the experimental group, while only walking exercises will be performed in the control group. Motor imagery exercises consist of performing a mental exercise by which an individual rehearses or simulates a given action. Our hypothesis is that participants who perform motor imagery exercises have better results than participants who train without imagery exercises.

Several strategies or contexts help patients with Parkinson's disease to move more quickly or normally, however the brain mechanisms underlying these phenomena are poorly understood. The proposed studies use complimentary brain mapping techniques to understand the brain mechanisms supporting improved movements elicited by external cues. The central hypothesis is that distinct networks are involved in movement improvement depending on characteristics of the facilitating stimulus. Participants will perform movement tasks during recording of brain activity with EEG and MRI. The identified biomarkers may provide targets for future neuromodulation therapies to improve symptoms that are refractory to current treatments, such as freezing of gait.

This trial will study the safety and efficacy of intravenous infusion of cultured allogeneic adult umbilical cord derived mesenchymal stem cells for the treatment of Parkinson's Disease

The objectives of this study are to collect the long-term safety and effectiveness data of performing thalamotomy for tremor dominant Parkinson's Disease (TDPD) using the Exablate Neuro system.

This involves development and application of magnetic resonance imaging (MRI) methods for visualizing hemodynamic and metabolic relationships in healthy volunteers with advanced meditation experience.

Pain is an increasingly recognized non-motor symptom of Parkinson's disease (PD), with significant prevalence and negative impact on the quality of life of patients. Repetitive transcranial magnetic stimulation (rTMS) of the primary motor cortex（M1）has been proposed to provide definite analgesic effect for pain syndromes. However, very few placebo-controlled studies have been performed specifically to relieve pain in PD. What's more, based on behavioral measures alone, it is impossible to reveal the full network dynamics reflecting the impact of TMS. Electroencephalography (EEG), with high temporal resolution, records signal that its origin in electrical neural activity, which makes it suitable for measuring TMS-evoked activation. By recording the TMS induced neuronal activation directly from the cortex, TMS-EEG provides information on the excitability, effective connectivity of cortical area, thus exploring cortical network properties in different functional brain states. In addition, the use of EEG offers great prospects as a tool to select the right patients in order to achieve adequate, long-term pain relief. Besides assessing the efficacy and safety of high-frequency neuronavigated M1-rTMS in PD patients with musculoskeletal pain, the objective of this study additionally aimed to characterize cortical activation behind pain relief. Influence on motor and other non-motor symptoms after rTMS were also investigated.

The purpose of this study is to determine the changes in quality of life and degree of tremor for patients with essential tremor or Parkinsonian tremor who are treated by stereotactic radiosurgery (SRS). This is a questionnaire-based study. Please see Detailed Description below for more information.

Individuals affected with Parkinson disease (PD), are found to be at high risk of motor impairment and non-motor impairment as well. It further leads to affect the quality of life in patients of PD, due to impairments in postural instability, balance impairment and gait disturbances. Hence, various Physiotherapy based rehabilitation is on-demand that improves their quality of life and prognosis. Emerging trends in neuro-rehabilitation are Virtual reality intervention (VRI), that helps the patient to involve in a virtual environment and provide rehabilitation as per need by using different software games. As a result, their balance, posture and gait can improve speedily. In VRI we will be using the latest model of VRI that will include an assessment tool to assess the disability and provide rehabilitation. The cognitive system is also get affected due to physiological changes occur in PD, that leads to impair the other functions during walking such as balance and posture. Because during walking they can not perform dual task orientation to correct their posture and balance. So, dual-task intervention (DTI) is helpful to train them and involve them to participate actively in various activities. In this project, we will develop an innovative rehabilitation technique to improve the posture, balance and gait in patients with PD. It will include VRI and additive DTI that will keep the patients motivated to perform the exercise actively. To assess the problems we will use standard device posturography that will be used before the intervention and after the intervention to identify the changes in their condition. Additionally, we will use some scales as outcome measures to assess the PD, quality of life and gait. Previous studies show that VR games and dual-task intervention training are an effective method to rehabilitate neurological ill patients. During the experiments, both conventional (DTI) and experimental (VRI+ DTI) will be considered.